EP0036701B1

EP0036701B1 - Stripper

Info

Publication number: EP0036701B1
Application number: EP81300347A
Authority: EP
Inventors: Thomas Desmond Bishop
Original assignee: Dec Realisations Ltd
Current assignee: Dec Realisations Ltd
Priority date: 1980-03-20
Filing date: 1981-01-27
Publication date: 1984-08-08
Also published as: DE3165302D1; US4367069A; EP0036701A1

Description

This invention relates to strippers for use with a rotary die cutting of sheet material.
Modern practice uses such material in the form of so-called continuous web in substantial widths, which is die cut and sometimes printed without any preliminary step of cutting the web into individual blanks. This minimises costs, particularly where large quantities of identical articles are to be made, for example containers for the food trades. The parts being cut are often of complex shape and may be provided with crease-lines where the parts are to be folded or hinged. The dies are arranged to cut the maximum number of parts from the web, but inevitably areas of scrap material are formed because of the complexity of the shapes. At a certain stage some or all of the scrap is separated from the parts, and this operation is known as stripping.
It is known from GB-A-1 074291 to effect stripping by spike-like parts projecting from one roll and arranged to stab the scrap pieces as the web passes through the roll nip. The impaled scrap is removed at an angularly spaced location in roll rotation.
The other roll may have blocks of polyurethane to assist in the impalement. The problem with this arrangement is that the spikes need to project through the plane of the web in order that they can impale the scrap, but then necessarily contact the scrap before the nip between the rolls and consequently at a point where the web is not supported by the polyurethane. Hence there is a danger that the unsupported web will ripple or bulge. If the web is a soft metal foil or plastics or laminate of these, the ripples or bulges may become permanent and in any case the accuracy of the cut shapes may be affected. Longer spikes which might give better impalement for more certain removal of the scrap only aggravate this ripple/bulge problem.
In US-A-3949653 the scrap is gripped between two abutments, one carried by each roll, and these are cam displaced radially so as to coincide and grip the scrap piece in advance of the nip, and subsequently one of them pushes the scrap out of the plane of the web. This avoids the ripple/bulge problem, but has its own disadvantages, namely that the scrap can only be controlled by the abutments over a small angular displacement, which results in early release of the scrap. Consequently the scrap may not be entirely severed, or because it is released near to the plane of the web it may get caught up and travel with the web.
The invention describes a stripping apparatus according to the preamble of claim 1 characterised in that one of the abutments is a spike which is moved through the plane of the web in passing through the nip between the rolls, and the other of the abutments is tubular and radially moved so that its end sweeps along a straight line tangential to the roll surface at the nip and parallel to the plane of the web, said tubular end receiving the spike when the said abutments coincide thereby ensuring complete impalement and preventing the scrap piece from being merely bulged or rippled by the spike.
By these means the advantages of both of the mentioned prior art arrangements are retained, and the disadvantages of both are avoided. Thus the spike can carry the scrap through any desired angular distance to ensure complete separation from the web, and thorough impalement can be obtained without risk of bulging. Preferably the spike is surrounded by a tubular end part which is displaced outwardly to disengage the impaled scrap from the spike at the required angular location.
The invention is now more particularly described with reference to the accompanying drawings wherein:-

Figure 1 is a fragmentary and part sectional elevation of a roll pair provided with the stripper of the invention;
Figure 2 is a fragmentary enlarged scale sectional view; and
Figure 3 is a different fragmentary sectional view.

Turning now to the drawings and particularly Figure 1, there is shown a roll pair comprising an upper roll 10 and a lower roll 12 both of which are annular and of massive construction so as to be rigid, and which are arranged to rotate in the direction shown by the arrows A. The web to be stripped is fed in the direction of the arrow B through the roll nip, and the thickness of the web in the nip is indicated by the chain dot lines 14.
The roll 12 is provided with a series of spikes 16 which are synchronised for association with a series of abutments 18 provided on the roll 10.
Construction of the abutments, and their operation, is best seen from Figure 2. The abutment 18 is formed as one end of a tubular member which is slidable in a bore in the roll, being guided at its outer end by a bush 20 screwed into the face of the roll. The bush carries a cross pin 22 which extends through elongated slots 24 in the tube, and the pin extends through a first plug 26 which forms a seating for one end of a compression spring 28 lying in the tube bore, the opposite end of the spring seating against the second plug 30 which is cross pinned to the tube by a pin 32. The second plug 30 terminates in a cam follower 34.
The spring 28 tends to displace the whole of the abutment radially inwardly by reaction with the fixed plug 26. The inward displacement is controlled by a fixed cam 36 about which the roll 10 rotates. As will be seen from consideration of Figure 1, wherein the whole of the cam 36 is shown by a broken line, the abutment shown as 40 on Figure 1 is at its radially innermost position so that its outer end face is flush with the roll. As the abutment 40 travels about the cam it remains flush (although this is unimportant) until it has completed some 270° of a revolution when the cam commences to displace the abutment outwardly so that as shown at 41 Figure 1 there is a slight projection, and so on until when at the position occupied by the abutment 42 Figure 1 the projection is at a maximum and complete. The end face of the abutment then lies immediately adjacent to the true plane of the web. In movement from the position of the abutment 42 to the position of the abutment 40 Figure 1, the shape of the cam ensures that the spring causes the inward movement so that the outer end effectively sweeps along the plane of the surface of the web.
Turning now to Figure 3, it will be seen that the construction of the spike is generally similar to that of the abutment, save that the radially outer most plug is integral with the spike 44 and the spike projects beyond the surface of the roll. In the radially outermost position of the tube, the end part 46 surrounds the spike, and in the radially innermost position of the tube (shown in Figure 2) the end part 46 is flush with the surface of the roll leaving the spike projecting.
The roll 12 is provided with an eccentrically running solid shaft 48 which contacts the cam follower part of the spike assembly and the shaft is driven with the roll so that there is no relative rotation: this is to minimise wear. The effect of the eccentric shaft is similar to that of a cam, except that the tube is projected outwardly to a maximum extent at say 120° removed from the nip, so that any material impaled on the spikes is displaced from impalement by the tube movement, for collection of the scrap pieces at a position remote from the nip. As the spikes approach the nip the tubes are wholly retracted.
It will be appreciated that the web is only contacted by the stripping spikes at a time when it is also contacted on the opposite face by the abutments, and because the abutment is controlled in position so that it cannot project beyond the true plane of the web, the risk of displacement or deformation is avoided.

Claims

1. Stripping apparatus comprising a pair of abutments (18, 44) carried by the respective rolls (10, 12) of a pair, and synchronised to coincide and grip a scrap piece in a web (14) on opposite faces of the same, so that the scrap piece can be carried out of the plane of the web by one of the abutments, characterised in that one of the abutments (44) is a spike which is moved through the plane of the web in passing through the nip between the rolls, and the other (18) of the abutments is tubular and radially moved so that its end sweeps along a straight line tangential to the roll surface at the nip and parallel to the plane of the web (14) said tubular end (18) receiving the spike (44) when the said abutments coincide thereby ensuring complete impalement and preventing the scrap piece from being merely bulged or rippled by the spike.

2. Stripping apparatus as claimed in Claim 1 wherein the spike (44) is surrounded by a tubular end part (46) which is spring driven radially inwardly of the roll (12) and means (48) are provided for driving said end part outwardly at a position angularly spaced from the nip for disengaging impaled scrap from the spike.

3. Stripping apparatus as claimed in Claim 2 wherein said means comprise an eccentric driven at the same speed as the roll (12).